The Cryosphere Discussions
www.the-cryosphere-discuss.net
1994-0432
1994-0440
4
2
2010
10.5194/tcd-4-469-2010
http://www.the-cryosphere-discuss.net/4/469/2010/
http://www.the-cryosphere-discuss.net/4/469/2010/tcd-4-469-2010.html
http://www.the-cryosphere-discuss.net/4/469/2010/tcd-4-469-2010.pdf
469
494
2010-04-01
The role of glaciers in stream flow from the Nepal Himalaya
D. Alford
dalford8@aol.com
R. Armstrong
Consultant – Mountain Hydrologic Systems, Billings, Montana, USA
Senior Scientist, National Snow and Ice Data Center, University of Colorado, Boulder, Colorado, USA
Recent concerns related to the potential impacts of the retreat of Himalayan
glaciers on the hydrology of rivers originating in the catchment basins of the
Himalaya have been accompanied by few analyses describing the role of glaciers
in the hydrologic regime of these mountains. This is, at least in part, a result
of the relative inaccessibility of the glaciers of the Himalaya, at altitudes
generally between 4000–7000 m, and the extreme logistical difficulties of: 1) reaching the glaciers,
and 2) conducting meaningful research once they have been
reached. It is apparent that an alternative to traditional "Alpine" glaciology
is required in the mountains of the Hindu Kush-Himalaya region. The objectives
of the study discussed here have been to develop methodologies that will begin to
quantify the role of complete glacier systems in the hydrologic regime of the Nepal
Himalaya, and to develop estimates of the potential impact of a continued retreat
of these glacier, based on the use of disaggregated low-altitude data bases,
topography derived from satellite imagery, and simple process models of water and
energy exchange in mountain regions.
<br><br>
While the extent of mesoscale variability has not been established by studies to
date, it is clear that the dominant control on the hydrologic regime of the tributaries
to the Ganges Basin from the eastern Himalaya is the interaction between the summer
monsoon and the 8000 m of topographic relief represented by the Himalayan wall.
All the available evidence indicates that the gradient of specific runoff with altitude
resulting from this interaction is moderately to strongly curvilinear, with maximum
runoff occurring at mid-altitudes, and minima at the altitudinal extremes. At the upper
minimum of this gradient, Himalayan glaciers exist in what has been characterized as an
"arctic desert".
<br><br>
The methodologies developed for this study involve the relationship between area-altitude
distributions of catchment basins and glaciers, based on Shuttle Radar Topography Mission
(SRTM3) data and water and energy exchange gradients. Based on these methodologies, it
is estimated that the contribution of glacier annual melt water to annual stream flow into
the Ganges Basin from the glacierized catchments of the Nepal Himalaya represents
approximately 4% of the total annual stream flow volume of the rivers of Nepal,
and thus, is a minor component of the annual flow of the Ganges River. The models
developed for this study indicate that neither stream flow timing nor volume of the
rivers flowing into the Ganges Basin from Nepal will be affected materially by a
continued retreat of the glaciers of the Nepal Himalaya.
Alford, D., Armstrong, R., and Racoviteanu, A.: Glacier Retreat in the Nepal Himalaya: An Assessment of the Role of Glaciers in the Hydrologic Regime of the Nepal Himalaya, Project Completion Report to: South Asia Sustainable Development (SASDN) Office, Environment and Water Resources Unit, The World Bank, Washington, DC, 2009.
Barry, R. and Chorley, R.: Atmosphere, Weather and Climate, Holt, Rinehart and Winston, Inc., New York, p 80, 1970.
Benn, D. and Gemmell, A.: Calculating equilibrium-line altitudes of former glaciers by the balance ratio method: a new computer spreadsheet, Glacial Geology and Geomorphology, http://ggg.qub.ac.uk/ggg/, 1997.
DHM: Hydrological Records of Nepal, Streamflow Summary, Updated Version, Department of Hydrology and Meteorology, Government of Nepal, Ministry of Water Resources, Kathmandu, 1988.
DIHM: Department of Irrigation, Hydrology and Meteorology, Climatological Records of Nepal, Vol. 2. Government of Nepal, Ministry of Water Resources, Kathmandu, 1977.
Fujita, K., Takeuchi, N., and Seiko, K.: Glaciological observations of Yala Glacier in the Langtang Valley, Nepal Himalayas, 1994 and 1996, Bull. Glacier Research, 16, 75–81, 1998.
Haefeli, R.: The ablation gradient and the retreat of a glacier tongue, International Association of Hydrological Sciences Pub., 58, 49–59, 1962.
IPCC: Intergovernmental Panel on Climate Change, Chapter 10.6 (Case studies) of the IPCC report of the Working Group II, 2007.
Konz, M., Braun, L., Grabs, W., Shrestra, A., and Uhlenbrook, S.: Runoff from Nepalese Headwater Catchments – Measurements and Modeling, Deutsches Nationalkomiteefur das International Hydrological Programme (IHP) der UNESCO und das Hydrology und Water Resources Programme (HWRP) der WMO, Koblenz, 160~pp., 2005.
Mool, P. K., Wangda, D., Bajracharya, S. R., Kunzang, K., Gurung, D. R., and Joshi, S. P.: Inventory of Glaciers, Glacial Lakes and Glacial Lake Outburst Floods, ICIMOD, Kathmandu, Nepal, 2001.
Osmastton, H.: Estimates of glacier equilibrium line altitudes by the Area×Altitude, the Area×Altitude Balance Ratio and the Area×Altitude Balance Index methods and their validation Quaternary International Volumes 138–139, September–October 2005, Pages 22–31, 2005.
Rabus, B., Eineder, M., Roth, A., and Bamler, R.: The shuttle radar topography mission – a new class of digital elevation models acquired by space borne radar, ISPRS J. Photogramm., 57(4), 241–262, 2003.
Raina, V.: Himalayan Glaciers: A State-of-the-art Review of Glacier Studies, Glacier Retreat and Climate Change, Ministry of Environment & Forests Government of India, G. B. Pant Institute of Himalayan Environment & Development, Kosi-Katarmal, Almora, India, 2009.
Sharma, C.: Water and energy Resources of the Himalayan Block, Navana Printing Works Private Ltd., 47 Ganesh Chander street, Kathmandu, 477~pp., 1983.
Tangborn, W. and Rana, B.: Mass balance and runoff of the partially debris-covered Langtang Glacier, Nepal, edited by: Nakawo, M., Raymond, C. F., and Fountain, A., Debris-covered glaciers, Vol 264, IAHS, Wallingsford, 53–61, 2000.
Thayyen, R. J. and Gergan, J. T.: Role of glaciers in watershed hydrology: a preliminary study of a "Himalayan catchment", The Cryosphere, 4, 115–128, 2010.
Ward. R.: Principles of Hydrology, 2 Edn., McGraw-Hill Co Ltd., London, England, 1975.